Your search keyword '"Nimmo, Dale"' showing total 14 results

1. The influence of fire mosaics on mammal occurrence in north-western Australia.

Author

Moore, Harry A., Gibson, Lesley A., and Nimmo, Dale G.

Subjects

FIRE ecology, SPATIAL ecology, MAMMAL populations, HABITAT selection, DATABASES

Abstract

Copyright of Fire Ecology is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

2. Exploring the potential of topsoil pellets to improve native seedling establishment on degraded agricultural land.

Author

Munro, Thomas P., Erickson, Todd E., Nimmo, Dale G., Dadzie, Frederick A., Muñoz-Rojas, Miriam, and Price, Jodi N.

Subjects

SOIL seed banks, SEED technology, FARMS, NATIVE species, AGRICULTURE

Abstract

Background and aims: Agricultural activities can degrade soils and promote weeds, posing challenges to native species restoration. In agricultural restoration, removing contaminated topsoil is a method designed to reduce elevated soil nutrients caused by fertilisation. This strategy targets weed control by eliminating both aboveground weeds and their soil seed bank before direct seeding. However, it also diminishes native soil seed banks and beneficial soil microbes. We investigated the potential of fresh topsoil pellets containing seeds to improve seedling performance in a degraded grassy woodland where topsoil had been removed. Methods: We tested various pellet recipes, including one using commercial ingredients and three with different topsoil proportions (30%, 50%, and 70%). The study was conducted in a degraded grassy woodland in southeastern Australia, where topsoil was removed for restoration. We explored the effect of these pellet varieties on seedling emergence and growth of six native species common in this community, as well as microbial activity in the soil surrounding the seedlings. Results: Pellets significantly improved the emergence of Chrysocephalum apiculatum, providing evidence of their effectiveness. However, pellets significantly reduced Arthropodium milleflorum and Glycine tabacina emergence. Linum marginale and Rytidosperma caespitosum emergence remained unaffected by pellets. One species, Bothriochloa macra, had insufficient emergence for analysis. The microbial activity of the soil surrounding Rytidosperma caespitosum seedlings was significantly improved by pellets, with no significant effects observed for other species. Conclusion: Our results demonstrate that topsoil pellets improved the emergence of one native species, but reduced emergence for two others, indicating species-specific responses to pelleting. [ABSTRACT FROM AUTHOR]

Published

2024

3. Fragments maintain similar herpetofauna and small mammal richness and diversity to continuous habitat, but community composition and traits differ.

Author

Westaway, Dylan M., Jolly, Chris J., Watson, David M., Jessop, Tim S., Michael, Damian R., Linley, Grant D., Aristova, Anna, Holmes, Ben, Price, Jodi N., Ritchie, Euan G., Geary, William L., Buchan, Anne, Loeffler, Ella, and Nimmo, Dale G.

Abstract

Context: Human disturbance has transformed ecosystems globally, yet studies of the ecological impact of landscape modification are often confounded. Non-random patterns of land clearing cause differing vegetation types and soil productivity between fragments in modified landscapes and reference areas—like national parks—with which they are compared. Objectives: We sought to explore the influence of land modification on herpetofauna and small mammal communities using multiple biodiversity measures—species richness and diversity, individual species abundance, and community composition. We also aimed to investigate the role of traits such as diet, habitat breadth, and litter size in moderating species responses to land modification. Methods: We established 100 sampling sites to survey herpetofauna and small mammals in 11 fragments in an agricultural landscape compared to 11 ecologically equivalent ‘pseudo-fragments’ in a nearby national park in south-eastern Australia. We selected pairs of fragments and pseudo-fragments of the same size and vegetation type, and used identical survey methods to sample pairs simultaneously, thereby controlling for numerous confounding factors, such as differing vegetation type, weather, and survey effort. Results: Species richness and diversity were similar between fragments and pseudo-fragments. Despite this, we found community composition differed markedly—driven by the varying responses of individual species—indicating a shift in fauna communities associated with land modification. Fossorial habit, omnivorous diet, and broad habitat requirements led to higher abundance in fragments whilst arboreality, carnivorous diet, and narrow habitat requirements led to higher abundance in pseudo-fragments. Conclusions: Although fragments hold similar numbers of species to continuous areas, they contain distinct and novel communities, and sustain high abundances of some species. These diverse communities are dominated by native species, including threatened species, and their distinctive composition is shaped by traits conducive to persistence amidst land modification. These novel communities may provide a reservoir of resilience in the face of environmental change and should be viewed as complementary to conservation areas. [ABSTRACT FROM AUTHOR]

Published

2024

4. Habitat amount is less important than habitat configuration for a threatened marsupial predator in naturally fragmented landscapes.

Author

Moore, Harry A., Michael, Damian R., Dunlop, Judy A., Valentine, Leonie E., Cowan, Mitchell A., and Nimmo, Dale G.

Subjects

FRAGMENTED landscapes, HABITATS, MARSUPIALS, RAILROADS, REMOTE sensing, LANDSCAPE ecology, MINES & mineral resources

Abstract

Context: The amount and configuration of habitat are independent but tightly linked landscape characteristics which are often confounded in ecological studies. Differentiating the effects of each characteristic is critical for conservation, because the mechanisms by which they influence populations are distinct. While studies that have measured the effects of habitat amount and configuration separately have often found the former to be more important, a subset of these studies suggest habitat configuration can be vital to a species when habitat amount is low (10–30%). Objectives: We aimed to test the independent effects of habitat amount and configuration on the occupancy and abundance of an endangered marsupial predator, the northern quoll (Dasyurus hallucatus), which persists in naturally fragmented rocky landscapes, in which habitat amount is naturally low (i.e. typically < 30%). Methods: Northern quolls were surveyed across 22 study landscapes that were deliberately selected such that habitat amount and configuration were uncorrelated. Northern quoll occupancy and abundance was estimated at each landscape using data collected from remote sensing cameras, and a combination of occupancy and n-mixture models. Results: Spatial configuration of rocky habitats was more important than the amount of habitat when predicting quoll occupancy and abundance; northern quolls were less abundant in landscapes that were more fragmented. In addition, northern quolls favoured areas that were topographically rugged and received more rainfall. Conclusions: Our results support the hypothesis that the effects of habitat configuration can be strongest when habitat amount is low, and underscore the importance of aggregated patches of rocky outcrops for northern quoll conservation. The subdivision of rocky habitat, for instance through construction of mines or mining infrastructure (e.g. road, rail lines), is likely to have negative impacts on northern quoll populations. [ABSTRACT FROM AUTHOR]

Published

2022

5. Indigenous burning shapes the structure of visible and invisible fire mosaics.

Author

Greenwood, Leanne, Bliege Bird, Rebecca, and Nimmo, Dale

Subjects

FIRE management, INDIGENOUS peoples, REGRESSION analysis

Abstract

Context: In many regions of the world, Indigenous people continue to shape landscape patterns using fire. Some studies show that Indigenous fire regimes create a diverse "visible mosaic" of time-since-fire ages. Less is known about the underlying, cumulative spatiotemporal patterns of fires that are hidden beneath visible fire scars—termed the "invisible fire mosaic"—despite its role in shaping biota in fire-prone landscapes. Objectives: We investigated how distance from Indigenous communities affects landscape patterns, focusing on aspects of the visible (i.e., time-since-fire diversity and maximum landscape area burnt) and invisible (i.e., number of years burnt, diversity of fire frequency patches, and number of unique fire histories) fire mosaic. Methods: We quantified fire histories for 450 landscapes across Western Australia. We calculated the distance of each landscape to the nearest Indigenous community (a proxy for the intensity of human landscape use) and used regression models to investigate how distance influenced the properties of the visible and invisible fire mosaic. Results: Landscapes near Indigenous communities experienced more frequent fire, had higher time-since-fire diversity, higher diversity of fire frequency patches, and a greater number of unique combinations of fire histories (seasons, interval lengths, and time-since-fire ages). Pyrodiversity was negatively related to the maximum area burnt, supporting the notion that Indigenous burning limits fire size. Conclusions: Indigenous burning creates distinctive visible and invisible fire mosaics which dwarf the pyrodiversity of more distant areas, thereby potentially crafting ecosystem states that profoundly differ from those without human presence. [ABSTRACT FROM AUTHOR]

Published

2022

6. Feral ungulate and macropod responses to resource scarcity and predation risk at savanna waterholes.

Author

Mihailou, Helenna, Nimmo, Dale G., and Massaro, Melanie

Subjects

PREDATION, UNGULATES, WILDLIFE conservation, WATER shortages, SAVANNAS, COMPETITION (Biology), WATER buffalo

Abstract

When exotic species are introduced to new environments, they often have a competitive advantage over native species. In northern Australia, pigs, cattle, and water buffalo have established widespread, feral populations. As ungulates have high water requirements, they typically congregate near waterpoints. We used a fencing experiment to test whether native macropods preferentially visited savanna waterholes where large ungulates were excluded. We also investigated whether water scarcity affected the visitation behaviour and temporal activity patterns of herbivores at waterholes and whether increasing prey aggregation at waterholes increased dingo presence. We found that macropods did not use fenced waterholes preferentially over unfenced ones. Cattle presence at waterholes increased as water became scarce, while macropod and pig presence peaked in the middle of the dry season. Macropod activity declined rapidly at the end of the dry season when cattle activity was greatest, suggesting that macropods may avoid waterholes in areas utilised by cattle when competition for resources is high. Macropods and all ungulates visited waterholes more during a drought year compared to an average rainfall year. Despite increasing prey activity, dingo presence at waterholes did not increase when water became scarce. However, dingo presence increased significantly on moonless nights. Our results suggest that competition between macropods and ungulates may intensify during periods of water scarcity. Climate change and pastoral intensification are likely to increase competition for resources between ungulates and macropods in Australian savannas, potentially threatening macropod populations across the landscape in the future. Significance statement: In northern Australia, feral populations of pigs, cattle, and water buffalo compete with native wildlife for access to water sources. As interspecific competition favours species with a size advantage, we tested whether kangaroos and wallabies (macropods) preferentially use waterholes where large ungulates (cattle and buffalo) were excluded. We found that macropods avoided waterholes when cattle presence was high but did not preferentially use waterholes where livestock were excluded. When water scarcity peaked during a drought, macropods and all three feral ungulate species visited waterholes more. However, increased prey presence at waterholes during the drought did not correspond with increased predator (dingo) presence. Our study advances the understanding of behavioural interactions between invasive and native species at important shared resources, and how this may affect wildlife conservation in an increasingly unpredictable environment. [ABSTRACT FROM AUTHOR]

Published

2022

7. A rocky heart in a spinifex sea: occurrence of an endangered marsupial predator is multiscale dependent in naturally fragmented landscapes.

Author

Moore, Harry A., Michael, Damian R., Ritchie, Euan G., Dunlop, Judy A., Valentine, Leonie E., Hobbs, Richard J., and Nimmo, Dale G.

Subjects

FRAGMENTED landscapes, LANDSCAPE ecology, MARSUPIALS, REMOTE sensing, SPECIES distribution, EDGE effects (Ecology), GROUND vegetation cover

Abstract

Context: Research on the impacts of anthropogenic habitat fragmentation has dominated landscape ecology for decades, yet our understanding of what drives species' distributions in naturally fragmented landscapes remains limited. Objectives: We aimed to (i) determine whether rocky patches embedded within a 'matrix' of fire prone grasslands act as naturally fragmented landscapes for an endangered marsupial predator, the northern quoll (Dasyurus hallucatus), and (ii) reveal the extent to which within-patch, patch, landscape variables, and matrix condition drive the occurrence of northern quolls. Methods: We deployed remote sensing cameras for a total of 200 nights, at 230 sites spanning rocky and grassland habitats across 6000 km2 of the Pilbara bioregion of Western Australia. We examined the influence of within-patch, patch, landscape variables, and matrix condition on northern quolls using Generalised Linear Mixed Models. Results: We found strong evidence that northern quoll habitat is naturally fragmented, observing higher occurrence and abundance of quolls in rocky patches than the surrounding grassland matrix. Within rocky patches, quolls were more likely to use patches with higher vegetation cover and den availability (within-patch), lower amounts of edge habitat relative to patch area (patch), and larger amounts of surrounding rocky habitat (landscape). When quolls entered the matrix, they tended to remain in areas with high vegetation cover, close to rocky patches. Conclusions: Species occurrence in naturally fragmented landscapes is influenced by factors operating at multiple scales. Rocky habitats are naturally fragmented and vital to the conservation of a range of taxa around the world, including the northern quoll. [ABSTRACT FROM AUTHOR]

Published

2021

8. A guide to ecosystem models and their environmental applications.

Author

Geary, William L., Bode, Michael, Doherty, Tim S., Fulton, Elizabeth A., Nimmo, Dale G., Tulloch, Ayesha I. T., Tulloch, Vivitskaia J. D., and Ritchie, Euan G.

Published

2020

9. Impact of 2019–2020 mega-fires on Australian fauna habitat.

Author

Ward, Michelle, Tulloch, Ayesha I. T., Radford, James Q., Williams, Brooke A., Reside, April E., Macdonald, Stewart L., Mayfield, Helen J., Maron, Martine, Possingham, Hugh P., Vine, Samantha J., O'Connor, James L., Massingham, Emily J., Greenville, Aaron C., Woinarski, John C. Z., Garnett, Stephen T., Lintermans, Mark, Scheele, Ben C., Carwardine, Josie, Nimmo, Dale G., and Lindenmayer, David B.

Published

2020

10. Persistence through tough times: fixed and shifting refuges in threatened species conservation.

Author

Reside, April E., Briscoe, Natalie J., Dickman, Chris R., Greenville, Aaron C., Hradsky, Bronwyn A., Kark, Salit, Kearney, Michael R., Kutt, Alex S., Nimmo, Dale G., Pavey, Chris R., Read, John L., Ritchie, Euan G., Roshier, David, Skroblin, Anja, Stone, Zoe, West, Matt, and Fisher, Diana O.

Subjects

WILDLIFE conservation, BIODIVERSITY, MESOPREDATOR release, PREDATORY animals, ECOLOGICAL niche

Abstract

It may be possible to avert threatened species declines by protecting refuges that promote species persistence during times of stress. To do this, we need to know where refuges are located, and when and which management actions are required to preserve, enhance or replicate them. Here we use a niche-based perspective to characterise refuges that are either fixed or shifting in location over ecological time scales (hours to centuries). We synthesise current knowledge of the role of fixed and shifting refuges, using threatened species examples where possible, and examine their relationships with stressors including drought, fire, introduced species, disease, and their interactions. Refuges often provide greater cover, water, food availability or protection from predators than other areas within the same landscapes. In many cases, landscape features provide refuge, but refuges can also arise through dynamic and shifting species interactions (e.g., mesopredator suppression). Elucidating the mechanisms by which species benefit from refuges can help guide the creation of new or artificial refuges. Importantly, we also need to recognise when refuges alone are insufficient to halt the decline of species, and where more intensive conservation intervention may be required. We argue that understanding the role of ecological refuges is an important part of strategies to stem further global biodiversity loss. [ABSTRACT FROM AUTHOR]

Published

2019

11. Linear habitats in rural landscapes have complementary roles in bird conservation.

Author

Hall, Mark, Nimmo, Dale, Watson, Simon, and Bennett, Andrew F.

Subjects

BIRDS, LANDSCAPES, LAND use, ECOSYSTEMS, BIODIVERSITY

Abstract

Linear strips of vegetation (e.g., hedges, roadsides) are characteristic of rural environments worldwide. Different types of linear features have distinct structure and landscape context, suggesting they each may offer unique opportunities for conservation in modified landscapes. We compared the avifauna of 76 streamside (riparian) sites and 33 sites in roadside vegetation—two distinctive types of linear features of rural landscapes in southern Australia. There was a marked difference in the composition of the avifauna between these linear features, reflecting their individual context within the landscape. For all response groups—woodland bird species, non-woodland species, waterbirds—riparian vegetation supported a greater species richness per site, and greater cumulative richness across multiple sites, than did roadside vegetation. For woodland species, the assemblage of greatest conservation concern, richness in both riparian and roadside sites increased with increasing width, and decreased with increasing abundance of an aggressive avian competitor. The ubiquity of linear features worldwide means that measures that enhance their conservation value will have widespread benefits. Our results demonstrate that: (1) linear features offer habitat for a broad range of species in rural environments; (2) by supporting distinct assemblages, different types of linear features have complementary roles in nature conservation; (3) wider linear features have a positive influence on species that require vegetated cover; and (4) the fauna of linear features are vulnerable to biotic influences, in this case a native avian competitor. [ABSTRACT FROM AUTHOR]

Published

2018

12. Linear Optimization for Ecological Indices Based on Aggregation Functions.

Author

Beliakov, Gleb, Geschke, Andrew, James, Simon, and Nimmo, Dale

Published

2016

13. Restore the lost ecological functions of people.

Author

Bliege Bird, Rebecca and Nimmo, Dale

Published

2018

14. Confronting the risks of large-scale invasive species control.

Author

Kopf RK, Nimmo DG, Humphries P, Baumgartner LJ, Bode M, Bond NR, Byrom AE, Cucherousset J, Keller RP, King AJ, McGinness HM, Moyle PB, and Olden JD

Published

2017